华北地区石炭－二叠系煤系地层和轻质油关系研究

对华北地区石炭－二叠系、下第三系、中上元古界沉积物和油样的低环萜烷参数用因子分析方法进行油源对比，表明石炭－二叠系部分样品与该区轻质油的关系密切。进一步分析这套地层的有机地球化学特征后，提出壳质组含量和成熟度是决定石炭－二叠系能否生成轻质油的主要因素，并提出该区煤系地层生成轻质油的成熟度下限是镜质组反射率Ｒ０为１．１％。     

煤炭显微煤岩组分与工业分析关系研究

通过分析宁夏各煤田中部分具有代表性煤矿勘查阶段钻孔煤岩煤样测试数据,研究了煤的显微煤岩组分与工业分析之间的关系。随着煤中有机组分、无机组分含量的变化,煤的灰分、挥发分、固定碳发生变化。煤中有机组分含量大于90%时,煤中灰分与黏土类含量存在正相关,挥发分与惰质组和壳质组含量均存在正相关,且惰质组含量影响更大;有机组分含量小于90%时,煤中灰分与惰质组和黏土类含量均存在正相关,且惰质组含量影响更大,挥发分与壳质组含量存在正相关。煤中固定碳含量受镜质组含量影响最大,二者存在正相关。     

Hydrocarbon Generation Characteristics of Source Rocks from Different Saline Environments in the Dongpu Depression,Bohai Bay Basin,China

The Dongpu Depression is a secondary salt-bearing tectonic unit in the Bohai Bay Basin, eastern China. The depositional environment of this depression regarding its Paleogene strata is clearly different in plane, including the saltwater environment(SE) in the north, the freshwater environment(FE) in the south and the brackish water environment(BE) in the middle. The result of oil and gas exploration in the Dongpu Depression shows that more than 90% of the proven oil reserves are distributed in the northern saltwater environment. Previous studies indicate that the organic geochemistry characteristics and the hydrocarbon generation capacity of the source rocks are very clearly diverse under different environments, which results in the significant differences in the proved reserves between the north and the south. In order to further explore the differences in the hydrocarbon generation capacity of the source rocks under distinct depositional environments and the mechanism of their occurrence, three samples from different depositional environments(W18-5 for SE, H7-18 for BE, CH9 for FE) were used for confined gold tube pyrolysis experiments. The results show that the CH4 yields of W18-5, H7-18 and CH9 increase with increasing temperature, the maximum yields being 405.62 mg/g TOC, 388.56 mg/g TOC and 367.89 mg/g TOC, respectively. The liquid hydrocarbon yields of W18-5, H7-18 and CH9 firstly increase with increasing temperature and then decrease after the critical temperatures. The maximum yields of C6-14 are 149.54 mg/g TOC, 140.18 mg/g TOC and 116.94 mg/g TOC, the maximum yields of C14+ being 852.4 mg/g TOC, 652.6 mg/g TOC and 596.41 mg/g TOC, respectively for W18-5, H7-18 and CH9. To summarize, the order of hydrocarbon potential from high to low is W18-5, H7-18 and CH9. On this basis, through analyzing the influencing factors of hydrocarbon differences, this paper reveals that the saltwater environment is characterized by 4 factors: higher salinity, halophilic algae, high paleo-productivity and a strongly reducing environment, which are beneficial to the enrichment of organic matter and lead to the formation of high levels of sapropelite and exinite. According to the variation of oil and gas components in the pyrolysis experiments, the hydrocarbon generation process is divided into three stages: kerogen cracking, oil cracking and C2-5 cracking. Combined with hydrocarbon generation characteristics and stages, the evolutionary model of hydrocarbon generation for source rocks under different environments is established.     

热模拟实验中煤岩及壳质组饱和烃萜类系列化合物地球化学特征

通过对塔里木盆地煤岩与壳质组热模拟实验可溶有机物的色—质分析,煤岩和壳质组三环二萜烷具有低丰度、窄碳数（C19～C26）特征,且三环二萜烷主要来源于煤岩结构中具有三环萜骨架前身物的断裂释放。藿烷C31和C32-αβ22S/22（S+R）随着热模拟温度升高呈增加趋势,表明该地球化学参数是较好的热成熟度指标;αββ藿烷可以用来反映煤岩的热演化程度,且ββ构型向βα构型转化时需要一定能量;煤岩在未熟到成熟热演化过程中,藿烷具有ββ<βα<αβ的热稳定性。壳质组萜烷系列化合物的地球化学参数（以17β（H）三降藿烷、C29βα-藿烷、C31αβ22S/22（S+R））表明壳质组热演化史比煤岩有迟豫效应。      

煤中显微组分的成烃演化实验

热解模拟实验揭示,镜质组的生烃作用与其起始成熟度有关,如果初次生烃中止,成熟度 (再次生烃起始成熟度)尚未超过生油高峰阶段 (R=0.9%),则再次生烃有可能显著提高煤的生烃潜量,且以起始成熟度在生烃高峰处的升高幅度为最大。在有机显微组分中:壳质组的生烃量最大,生烃范围最集中;镜质组次之;惰质组最少。      

13C high resolution solid state NMR spectra of Chinese coals

Several typical exinites in China including alginite, cultinite, suberinite and bituminite are analysed by means of¹³C high solution solid state CP MAS TOSS NMR spectra to determine their chemical structures and hydrocarbon potential. Thermal simulation solid products (TSSP) of hydrogen-rich coals are studied to discuss the generation and expulsion mechanism of coal-generating hydrocarbon. The preliminary results are quite encouraging, wntaining useful information about genesis of coal-generating oil and gases. Project supported by the “85–102” Chinese National Key Science and Technology Project.